Glasgow Products has been the leader in air table and air conveyor nozzles for over 20 years. Glasgow Products offers a wide variety of air nozzles for air tables, conveyors and other material handling applications. Glasgow also offers a wide variety of coupling and accessories for air conveyors and air transfer tables. Most of the Glasgow air nozzles are in stock and ready for immediate shipment. You can order online or call us and our technical sales representative can assist you in purchasing the correct air nozzle. For information on how to design and build an air table or air conveyor, please review the information on our Air Conveying Concept web page. Glasgow Products is a division of Steinen Manufacturing.
Contact our sales desk at 973-887-6400 (Ext 101) or by email at inquiries@steinen.com

Series 200 air table and air conveyor nozzles are high performance designed to operate at all pressures up to 50 p.s.i. Typically these nozzles operate at 3-5 p.s.i and flow at 4-6 cfm when activated.

The "O"-Ring seal prevents leakage and effectively economizes the use of plant air. Systems utilizing these precision nozzles may be supplied by blower or plant air through a regulator to provide air at the required pressure.

Pressure requirements may vary depending upon the loads involved and flatness of the sliding surfaces.

The series 200 nozzles are available with a stainless steel ball actuator.

Series 600 air table nozzles are designed to operate at all pressures up to 3 p.s.i. Typically these nozzles flow at up to 3 cfm when activated. An economy version designed with serrations around the barrel enabling them to be press-fit into 14 mm (.551) dia. holes for air conveyors and air tables.

Sealing takes place between the ball actuator and orifice of the molded housing. Available with nylon housing and stainless steel balls. Because there is no "O"-Ring seal, there is slight leakage with the stainless steel ball.

Since these Glasgow air nozzles are specifically intended for use in low pressure, high volume blower systems this leakage is of little consequence.